ES2779042T3 - Dust removal system for dust laden gases - Google Patents

Abstract

An atomizer (10) with a dust removal system for dust-laden gas, the atomizer (10) comprising an atomization chamber (11) and an atomization mechanism (12) installed in the chamber (11), including the chamber (11) an inlet for the dust-laden gas and an outlet for the gas after mixing, characterized in that: said atomization mechanism (12) comprises a water chamber (121), a first atomization ball (126) , a second atomization ball (127), an umbrella-shaped atomizer (130) and a regulating mechanism; said water chamber (121) includes a first water inlet (122) and a second water inlet (123), a first water outlet (124) and a second water outlet (125); said first and second water inlets are positioned opposite each other, and the center line of the water inlets is perpendicular to the center line of the water outlets; said first spray ball (126) is positioned to coordinate with said first water outlet (124); said second spray ball is positioned vertically below said first spray ball (126) and is positioned to coordinate with said second water outlet (125); said umbrella-shaped atomizer (130) is positioned vertically below said second atomization ball (127); said regulating mechanism adjusts an adjustment clearance between said first atomization ball (126) and said first water outlet (124), the adjustment clearance between said second atomization ball (127) and said second water outlet (125) , and a flare angle of the umbrella surface of the umbrella-shaped atomizer (130).

Description

DESCRIPTION

Dust removal system for dust laden gases

Technical field

This invention relates to the field of dust removal technology, more specifically to a dust removal system for dust laden gases.

Background of the invention

In the present metal processing industry, large amounts of dust laden gases are produced in the metal machining process. The dust in the dust-laden gas comprises mostly different compounds.

For example, in the aluminum-titanium-boron alloy production process, the powder produced includes the following compounds: BF ³ , AlF3, AbO3, KAlF4, K ² TiF ⁶ , K ⁸ F ⁴ , and blends of powders with air for form dust laden gas. The water mixture formed after contact between this powder and NaOH solution has the following characteristics: first, high viscosity with a high probability of adhering to metal surfaces; second, high probability of agglomeration with high coagulation speed; third, corrosion of metal in contact, when the water mixture adheres to metal surfaces.

Currently, there are mainly three kinds of dust removal equipment:

The first class is a bag-type dust removal device, as shown in Figure 1, wherein multiple bags are placed along the radial direction of the collection chamber 20. The dust-laden gas enters the device from the inlet of the collection chamber 20, passes through the micro-holes of the bags 22, and exits through the outlet of the collection chamber 20. The micro-holes of the bags have a certain size, gas and dust with Sizes smaller than a certain size can pass through the bags, while dust larger than a certain size is filtered off and accumulates in the bags. This kind of bag-type dust removal device can filter dust-laden gas, however, dust with high viscosity and high probability of agglomeration would easily block the micro-holes of the bags, so that it could not pass through the device normally and the device would not work. And the working life of this kind of device is very short; Normally, this device can work properly for only about 6 hours.

The second kind is the fan blade type dust removal device, as shown in figure 2, wherein a rotating fan body 23 is placed in the atomization chamber 21. There are two holes in the atomization chamber twenty-one; water flows into the atomization chamber 21 from the upper opening and impinges on the rotating fan body 23 to form water vapor; and the powder-laden gas flows into the atomization chamber 21 from the lower opening and mixes with the water vapor to remove the dust in the dust-laden gas. However, corrosion-effect dust would easily adhere to the surfaces of the fan body 23 and corrode the fan body, so that the water-atomizing effect of the fan body is reduced.

The third class is the dense duct type dust removal device, as shown in Fig. 3, wherein a tubular water chamber 24 is placed in the atomization chamber 21, and small dense ducts 25 are placed in the wall of the water chamber. Water flows into from the inlet of the water chamber 24 and is sprayed from the dense small conduits 25 to form water vapor, and the water vapor mixes with the dust-laden gas to remove the dust into dust-laden gas. However, when water is sprayed through the small dense ducts, the steam-water mixture surrounds the small dense ducts, so that burrs have a high probability of accumulating on the surfaces of the ducts in contact with the dense mixture. steam-water, so that the passages are slowly blocked to reduce the atomization effect and at the same time corrode to reduce the working life of this device. The need to remove burrs frequently in the process of using this device increases labor intensity and reduces dust removal efficiency.

In this way, current dust removal equipment cannot have stable, effective and continuous dust collecting effect for dust laden gas with compound dust.

FR 2416047 A3 relates to a water scrubber for purifying paint shop exhaust air, which has a high pressure non-lockable nozzle for producing water spray. Document FR 2345 054 A1 refers to an impact atomizer for liquids, which consists of a nozzle that injects liquid at a high pressure, and a plate. Document AU 425585 B3 relates to an apparatus for wet treatment of dust laden gases. The apparatus includes a polygonal cylinder or chamber equipped with nozzle assemblies along the chamber walls and a control member. GB 120 304 A relates to an apparatus for bringing gases and liquids into intimate contact. US 1017304 A refers to a smoke trap.

Summary of the invention

To solve the present technical problems, this invention provides a dust removal system for dust laden gas, as described in the claims. This system has a two-stage atomization - coordination of the atomization balls and the water outlets, and use of umbrella-shaped atomizers - to guarantee the atomization effect, and at the same time solve the present problems of blockage and corrosion without Increase the cleaning work and without affecting the working life.

This invention provides a dust removal system to solve the present technical problems. This invention provides a dust removal system to solve the present technical problems. This system comprises at least one atomizer, wherein the atomizer comprises an atomization chamber and an atomization mechanism installed in the atomization chamber. The atomization chamber includes an inlet for the dust-laden gas and an outlet for the gas after mixing; the atomization mechanism includes a water chamber, the first and second atomization balls, an umbrella-shaped atomizer, and a regulating mechanism; the water chamber includes the first and second water inlets, and the first and second water outlets. The first and second water inlets are positioned opposite each other, and the center line of the water inlets is perpendicular to the center line of the water outlets; the first atomization ball is positioned in coordination with the first water outlet and the second atomization ball is positioned in coordination with the second water outlet; the umbrella-shaped atomizer is placed under the second atomization ball; The regulating mechanism adjusts the adjustment clearance between the first atomizing ball and the first water outlet, the adjustment clearance between the second atomizing ball and the second water outlet, and the flare angle of the umbrella surface of the umbrella shaped spray bottle. Other preferred embodiments of this invention are:

the regulating mechanism includes a first, a second and a third regulating unit, wherein the first regulating unit is in connection with and in control of the movement of the first atomization ball, the second regulating unit is in connection with and in control of the movement of the second atomizing ball, and the third regulating unit is in connection with the umbrella-shaped atomizer and in control of the movement of the umbrella surface of the umbrella-shaped atomizer;

The regulation mechanism also comprises a fourth and a fifth regulation unit, wherein the fourth regulation unit is in connection with and in control of the movement of the first atomization ball, and the fifth regulation unit is connected to the second ball. atomization and the atomizer in the form of an umbrella;

there are multiple atomizers and they are neatly connected in series;

the first and second water outlets are round; the first and second atomization balls are spherical; the first atomization ball, the first water outlet, the second water outlet, the second atomization ball, and the umbrella-shaped atomizer are arranged orderly from top to bottom, and their centers are in line;

there are indentations on the side of the umbrella surface towards the water chamber; The upper part of the umbrella-shaped atomizer is embedded in the second atomization ball, so that when the second regulating unit drives the second atomization ball in motion, the umbrella-shaped atomizer moves simultaneously; the third regulating unit is hinged to the umbrella surface to adjust the flare angle of the surface;

The dust removal system includes a gas-liquid separation mechanism, wherein the gas-liquid separation mechanism includes a liquid outlet at the bottom and a gas outlet at the top, and the separation mechanism gas-liquid is connected to the gas outlet after mixing;

the dust removal system includes an exhaust mechanism, wherein the exhaust mechanism includes an exhaust pump and an exhaust pipe, and the exhaust pipe connects to the gas outlet; the dust removal system includes a sediment pool and the liquid outlet connects to an interior cavity of the sediment pool;

The dust removal system includes a filtration mechanism, wherein the filtration mechanism includes a sewage pump and a plate frame filter, the bottom of the sediment pool is connected to the plate frame filter through the sewage pump, and the water outlet from the plate frame filter flows into the sediment pool;

The dust removal system includes a water transport mechanism, wherein the water transport mechanism includes a water transport pump and a water transport conduit, the water transport pump connects to the top of the sediment pool, and the water transport conduit connects the first and second water outlets separately after the divided flow. Compared to the prior art, the preferred advantageous effect of this invention is: the two-stage atomization - coordination of the atomization balls and the water outlets, and the use of an umbrella-shaped atomizer - ensures the atomization effect. When there are burrs accumulating in the water outlets, the size of the water outlets would be reduced; regulate the adjustment clearances between the atomization balls and the water outlets to completely eliminate the influence of the blockage on the atomization effect. When there are burrs that corrode the water outlets, the size of the water outlets would increase; regulate the adjustment clearances between the atomization balls and the water outlets to completely eliminate the influence of corrosion on the atomization effect. According to the concentration of dust in the dust-laden gas, adjust the fitting clearances between the atomization balls and the water outlets accordingly to improve the atomization effect for water. And properly regulate the flare angle of the umbrella-shaped atomizer umbrella surface to further improve the atomization effect. In this way, there are better atomization effect and better contact effect between water and dust.

Brief description of the drawings

Fig. 1 is a structural schematic diagram of the prior art bag-type dust removal device.

Fig. 2 is a structural schematic diagram of the prior art fan blade type dust removal device.

Fig. 3 is a structural schematic diagram of the prior art dense duct type dust removal device.

Figure 4 is a structural schematic diagram of the atomizer of the dust removal system of this invention.

Figure 5 is a structural schematic diagram of the water chamber.

Figure 6 is a schematic diagram of one embodiment of the dust removal system of this invention.

Detailed description of preferred embodiments

A more detailed description of this invention is now made through an embodiment of the invention and the accompanying drawings.

As shown in Figures 4, 5 and 6, a dust removal system for the dust laden gas includes an atomizer 10 which is used to mix the dust laden gas and the water vapor so that the water vapor can absorb the dust in the dust-laden gas to eliminate or reduce the concentration of dust in the dust-laden gas, or is specially used to collect dust. The atomizer 10 includes an atomization chamber 11 and an atomization mechanism 12 positioned in the atomization chamber 11. The atomization chamber 11 includes an inlet for powder-laden gas 111 and an outlet for gas after mixing 112; Dust-laden gas flows into the atomization chamber 11 from the inlet for the dust-laden gas 111, contacts the water vapor, and flows out of the gas outlet after mixing 112. The atomization mechanism 12 is used to transform water flow into water vapor; the dust-laden gas and the water vapor in the atomization chamber 11 have a certain pressure. The atomization mechanism 12 includes a water chamber 121, the first atomization ball 126, the second atomization ball 127, an umbrella-shaped atomizer 130, and a regulating mechanism; the water chamber 121 includes the first water inlet 122, the second water inlet 123, the first water outlet 124 and the second water outlet 125; the first and second water inlets 122 and 123 are positioned opposite each other, and the center line of the first and second water inlets 122 and 123 is perpendicular to the center line of the first and second water outlets 124 and 125; the first spray ball 126 is positioned to coordinate with the first water outlet 124; the second spray ball 127 is positioned to coordinate with the second water outlet 125; the umbrella-shaped atomizer 130 is positioned below the second atomization ball 127; The adjusting mechanism adjusts the clearance between the first spray ball 126 and the first water outlet 124, the clearance between the second spray ball 127 and the second water outlet 125, and the flare angle of the Umbrella surface of the umbrella-shaped atomizer 130. The atomization ball 126 is used to coordinate with the first water outlet 124 to transform flow of water ejected from the first water outlet 124 into water vapor. The second atomization ball 127 is used to coordinate with the second water outlet 125 to transform water flow ejected from the second water outlet 125 into water vapor; The umbrella-shaped atomizer 130 is positioned at the bottom of the atomization mechanism 12 to further atomize the water vapor striking its umbrella surface to enhance the atomization effect.

The atomization mechanism in this invention can separately control the clearance between the first atomization ball 126 and the first water outlet 124; the adjustment clearance between the second atomization ball 127 and the second water outlet 125, and the flare angle of the umbrella surface of the umbrella-shaped atomizer 130, or can correlatively control two adjustment clearances and the flare angle from the umbrella surface. If in separate control, the regulating mechanism includes the first regulating unit 128, the second regulating unit 129 and the third regulating unit 131; the first regulating unit 128 is in connection with and in control of the movement of the first atomization ball 126; the second regulating unit 129 is in connection and in control of the movement of the second atomization ball 127; the third regulating unit 131 is in connection with the umbrella-shaped atomizer 130 and in control of the movement of the umbrella surface of the umbrella-shaped atomizer 130. If it is in correlated control, the regulation mechanism includes the fourth regulation unit and the fifth regulation unit; the fourth regulating unit is in connection with and in control of the movement of the first atomization ball 126; the fifth regulating unit is connected to the second atomization ball 127 and the umbrella-shaped atomizer 130, when the adjustment gap between the second atomization ball 127 and the second water outlet 125 is reduced, the angle is simultaneously reduced flare of the umbrella surface, and as the adjustment clearance between the second atomization ball 127 and the second water outlet 125 increases, the flare angle of the umbrella surface simultaneously increases.

The powder system of this invention can use only one atomizer or use several atomizers in series, depending on the demand for the level of dust removal.

The first spray ball 126 is positioned to coordinate with the first water outlet 124; the second atomization ball 127 is positioned to coordinate with the second water outlet 125; the sizes of the clearances between the atomization balls and the water outlets are related to the atomization effect, so moderately regulate the adjustment clearances between the atomization balls and the water outlets using the regulating mechanism. The umbrella-shaped atomizer 130 is positioned below the second atomization ball 127; Due to the incidence of gravity, water vapor or water droplets, which contact the sides of the umbrella-shaped atomizer 130, can be further atomized. The first and second water outlets preferred in the invention are round; The first atomization ball 126, the first water outlet 126, the first water outlet 124, the second water outlet 125, the second atomization ball 127, and the umbrella-shaped atomizer 130 are arranged neatly from top to bottom , and its centers are online.

There are indentations on the side of the umbrella surface towards the water chamber 121 to increase the surface area of the upper side of the umbrella surface and change the directions of water vapor and water droplets striking the indentations to improve the atomization effect.

The umbrella-shaped atomizer 130 can be positioned separately from the second atomization ball 127 or can be directly connected with the second atomization ball 127. If they are connected together, the upper wall of the umbrella-shaped atomizer 130 is embedded in the second atomization ball 127, so that when the second control unit 129 drives the second atomization wall 127 in motion, the umbrella-shaped atomizer 130 moves simultaneously, then the second atomization ball 127 and the atomizer in the shape of Umbrellas have a linear movement in the upward and downward direction. And the third regulating unit is hinged to the umbrella surface to adjust the flare angle of the surface.

The dust removal system of this invention includes a gas-liquid separation mechanism 13, the gas-liquid separation mechanism includes a liquid outlet 136 at the bottom and a gas outlet 135 at the top, and the gas-liquid separation mechanism 13 and the gas outlet after mixing 112 are interconnected. Due to the difference in gravity, after the entry of the dust-laden gas into the gas-liquid separation mechanism 13, the lighter clean gas flows out of the gas outlet at the top, and the water droplets more heavy with dust converge to escape from the liquid outlet 136. The dust removal system of this invention includes an exhaust mechanism 16, wherein the exhaust mechanism 16 includes an exhaust pump 161 and an exhaust pipe 162, and the exhaust pipe 162 is connected to the gas outlet 135. The exhaust pipe 162 is positioned connected to the gas outlet 135, so that clean gas can be exported along the exhaust pipe 162; and the exhaust pump 161 is positioned to effectively assist the gas flow.

The dust removal system of this invention includes a sediment pool 14 and the liquid outlet 136 is connected to the interior cavity of the sediment pool 14. Through the liquid outlet 136, the dusty water droplets converge to flow into and accumulate in sediment pool 14 to form wastewater; Subsequent evacuation of waste water can separate clean water and waste.

The dust removal system of this invention includes a filtration mechanism 15, wherein the filtration mechanism includes a sewage pump 151 and a plate frame filter 152. The bottom of the sediment pool 14 connects to the filter plate frame 152 through sewage pump 151; the Sewage pump 151 conveys waste water to plate frame filter 152; the plate frame filter 152 is used to separate the water and the residue and the outlet water from the plate frame filter 152 flows into the sediment pool 14.

The dust removal system of this invention includes a water transport mechanism 17, wherein the water transport mechanism 17 includes a water transport pump 171 and a water transport conduit 172. The water transport pump 171 is connected to the top of the sediment pool 14, so that the water can be recirculated and reused and that pollution and wastewater can be prevented from leaking; and the water transport conduit 172 connects to the first and second water outlets separately after splitting the flow.

In this invention, two-stage atomization - coordination of the atomization balls and the water outlets, and the use of an umbrella-shaped atomizer - is used to ensure the atomization effect. When there are burrs that accumulate in the water outlets, adjust the adjustment clearances between the spray balls and the water outlets to completely eliminate the influence of blockage on the spray effect. When there are burrs that corrode the water outlets, adjust the adjustment clearances between the spray balls and the water outlets to completely eliminate the influence of corrosion on the spray effect. According to the concentration of dust in the dust-laden gas, adjust the fitting clearances between the atomization balls and the water outlets accordingly to improve the atomization effect for water. And properly regulate the flaring angle of the umbrella-shaped atomizer umbrella surface to further improve the atomization effect. In this way, there are better atomization effect and better contact effect between water and dust.

Although more detailed descriptions of this invention have been given above in connection with a preferred embodiment, it should not be understood that this invention is limited to the described embodiment. It will be apparent to those skilled in the art that various modifications and equivalent arrangements can be made under the umbrella of this invention without departing from the spirit and scope of the invention.

Claims (10)

1. - An atomizer (10) with a dust removal system for dust-laden gas, the atomizer (10) comprising an atomization chamber (11) and an atomization mechanism (12) installed in the chamber (11), the chamber (11) including an inlet for the dust-laden gas and an outlet for the gas after mixing, characterized in that : said atomization mechanism (12) comprises a water chamber (121), a first atomization ball (126), a second atomization ball (127), an umbrella-shaped atomizer (130) and a regulating mechanism; said water chamber (121) includes a first water inlet (122) and a second water inlet (123), a first water outlet (124) and a second water outlet (125); said first and second water inlets are positioned opposite each other, and the center line of the water inlets is perpendicular to the center line of the water outlets; said first spray ball (126) is positioned to coordinate with said first water outlet (124); said second spray ball is positioned vertically below said first spray ball (126) and is positioned to coordinate with said second water outlet (125); said umbrella-shaped atomizer (130) is positioned vertically below said second atomization ball (127); said regulating mechanism adjusts an adjustment clearance between said first atomization ball (126) and said first water outlet (124), the adjustment clearance between said second atomization ball (127) and said second water outlet (125) , and a flare angle of the umbrella surface of the umbrella-shaped atomizer (130). The atomizer (10) with the dust removal system for dust-laden gas of claim 1, characterized in that said regulating mechanism includes a first regulating unit (128), a second regulating unit (129) and a third regulation unit (131), wherein said first regulation unit (128) is in connection with and in control of the movement of said first atomization ball (126), said second regulation unit (129) is in connection with and in control of the movement of the second atomization ball (127), and said third regulating unit (131) is in connection with said umbrella-shaped atomizer (130) and in control with the movement of the umbrella surface of the atomizer (130) in the shape of an umbrella. The atomizer (10) with the dust removal system for dust-laden gas of claim 1 or 2, characterized in that said regulating mechanism includes a fourth regulating unit and a fifth regulating unit, wherein said fourth regulating unit is in connection with and in control of the movement of said first atomization ball (126), and said fifth regulating unit is connected to said second atomization ball (127) and to said atomizer (130) in the form of an umbrella. The atomizer (10) with the dust removal system for dust-laden gas of any of the preceding claims, characterized in that there are multiples of said atomizers and they are orderly connected in series. The atomizer (10) with the dust removal system for dust laden gas of any of the preceding claims, characterized in that : said first and said second water outlets (124, 125) are round; said first atomization ball (126), said first water outlet (124) and said second atomization balls are spherical; the first atomization ball, the first water outlet, said second water outlet (125), said second atomization ball (127), and said umbrella-shaped atomizer (130) are arranged orderly from top to bottom, and their centers are online. The atomizer (10) with the dust removal system for dust laden gas of any one of the preceding claims, characterized in that : there are indentations on the side of the umbrella surface towards the water chamber (121); the upper part of the umbrella-shaped atomizer (130) is embedded in said second atomization ball (127), so that when said second regulation unit (129) drives said second atomization ball (127) in motion, said atomizer (130) umbrella-shaped moves simultaneously; said third regulating unit is hinged to said umbrella surface to adjust the flare angle of the surface. The atomizer (10) with the dust removal system for dust laden gas of any of claims 1 to 4, characterized in that : said dust removal system includes a gas-liquid separation mechanism (13) , wherein said gas-liquid separation mechanism (13) includes a liquid outlet (136) at the bottom and a gas outlet (135) at the top, and said gas-liquid separation mechanism (13 ) and said outlet for gas are interconnected after mixing. The atomizer (10) with the dust removal system for dust laden gas of any of the preceding claims, characterized in that : said dust removal system includes a mechanism exhaust pipe (169, wherein said exhaust mechanism (16) includes an exhaust pump (16) and an exhaust pipe (162), and said exhaust pipe (162) connects to said gas outlet (135). The atomizer (10) with the dust-laden gas dust removal system of claim 7, characterized in that : said dust removal system includes a sediment pool (14) and said liquid outlet (136) it is connected to an interior cavity of the sediment pool (14). The atomizer (10) with the dust removal system for dust laden gas of claim 9, characterized in that : said dust removal system includes a filtration mechanism (15), wherein said filtration mechanism (15) includes a sewage pump (151) and a plate frame filter (152), the bottom of said pool of sediment (14) is connected to said plate frame filter (152) via sewage pump (151), and the water outlet from said plate frame filter (152) flows into said sediment pool (14); said dust removal system includes a water transport mechanism (17), wherein said water transport mechanism (17) includes a water transport pump (171) and a water transport conduit (172), said water transport pump (171) is connected to the top of said sediment pool (14) and said water transport conduit (172) connects said first and second water outlets (124, 125) separately after the flow divided.